Electrode for electric cells



R. AMELN AND C. O. L MONTELIUS.

ELECTRODE FOR ELECTRIC CELLS. APPLICATION FILED MAY 27.1919.

1,411,256. Patented M114, 1922] 0L 8. a d. F f- W V OL. gr 3 -C i 3* L L o L Fig.8 0 at L.

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i -UNITEDism-res PATENT OFFICE sham m i .luiui ose-Ala osnr non-ruins, oi-memo. swmniaw, "4510x033 yro svnnsxa acxuunnaroaaxrmonaem .mnem or area:-

nonn; swsmm, a COBPORATIION. I I

'i nmc'rnonnronnncrnrc To whom it may I i v Be it known that we, Ronna'r AMELN SlId Oscar Josar Monrnmus', subjects of the King of Sweden, and residing at Stock:

holm,Sweden, have nvented a new-and useful Electrode for Electric Cells,of which the following is a specification; The present invention comprehendsgen: erally improvements in that class of invention known as. electrochemistry and'more particularly relates to electrodes for electric cells, preferably storage cells as well as the process for makingsuch electrodes. I w

Particularly in alkaline storage cells and also in some cases in lead" accumulators, the electrodes are made with a perforated-metal casin contain' b vious y the simp est formof these electrodes is an arrangement consisting oftwo thin, plane,

materi betweenthem As the active mate rial absorbs the electrolyte most vigorously thereby showing a marked tendency to swell,

. these container plates 'must be held together in some way or other for, example by wires or. rivetsor by divisionof the plates into kets each being separately held together y folds. Inadditionto these plane electrodes, tube shaped electrod'e'sjhave also been em loyed.

7 he plane electrodes,as iconstructed 'heretofore, seem to allow of a much better ut liza- 1,

. tion of the'cell spacethanj the "-roundtube electrodes; On account of the said swelling of the" electrode material the shape ofit'he' electrodes can however never. be exactly plane and a complete utilization of thecell s ace can therefore never be attained -with t use electrodes. Pockets of a rectangular cross-section will thus assume an elliptic form by the influence of the electrolyte, and on this account the cell space cannot be utilized much better with such electrodesfthan in electrodes with tube shaped pockets .of-a circular cross-section. j a I In electrodes according tothe present invention flat pockets orreceptaclesare used,

but these are arrangedYwith the-broad sides I facing each other, and not with the broad sides turned outwards, as in'the above mentioned electrodes. Asa resultmany advantages are attained. In the first place, it is evident that by 'making these receptacles the active material. 'Ob-.

perforated plates-holding the active a 1019.." Serial In. aoonea,

1 electrodes of the elliptic and tubular ty mentioned, the corresponding value is o I Another advantage is to 'be tound in the H v 's ecim n mrm as [Patented A r; 4, 1922. application filed 11127, i i v a the thickness k of the recep while their width I; is 8 mm; I of the space occupied bythe present construction that-the distance be-.

tween the conducting metal vcasing and the most d stant particle of the active material may. diminished considerably by reducing the thickness 'IL of-the receptacles, without the thickness 6 of the'electr'odes havin to be changed thereby-reducing the drop 0 voltage caused by the resistance of the active mass and of the contained electrolyte.

F urthersuchelectrodes ofier great advanfta'ges from a manufacturing point of view the receptacles being made of round tubes of c rcular cross-section these tubes being filled up with active'material and then compressed by rolhngso as. to give ,them an elongated cross, sectlon. As a result of the reduction 1n volume taking place when tubes of a air cular cross-section are flattened out, a strong compressionof the active material and conseoi iently a good contact are obtained. accompanyin' Fig. l'is all ing. a plurality of electrodes arranged-in a supported position. i

1g. 213a large top plan detail of one form of the improved electroda 3 is a similar view of another form of the invention. a

drawings in which Fig. 7 is a vertical section thereof partly in elevation.

F g. 8 is across sectional viewof the same.

Toiattain a good construction, the bordersof the tube, material may be advantageously prevented folded together, the folds bei from'openin'g hy' the pressing o 'the receptacles against each other. Figs. 2 and 3 illushe invention is fully illustrated "in th I i orizontal sectional view show-' Fig. 4 isfa side elevation of another form 5 side view of another form of r trate different ways of folding the receptacles. In the arrangement according to Fig. 2-each receptacle is separately folded whereas, according to Fig. 3, the container is bent into the shape shown in F i ure 6 and joined by means of two folds. he first arrangement is simpler and easier to make than the latter one.

Instead of being folded, 'the receptacles may also be riveted together. If desired, every joint between the edges of the sheetmetal can be avoided, if the receptacles are held together by suitable exterior bandages in the form of rings or the like attached on the outside of the receptacles.

When combining a plurality of receptacles into an electrode, it is important to hold the receptacles together in such a manner, that a transverse expansion of the receptacles as a result of the swelling of the active material under the influence of the electrolyte is avoided. To this end, the receptacles a are preferably arranged between two longitudinal bars 0, as shown in Fig. 1, which bars are kept at a fixed distance from each other by means of transversal studs or stays or the receptacles may be kept together by means of bandages, for instance in the form of spiralwound or annular bands holding all receptacles of the electrode.

I Figs. 4, 5, and 6 show another form of an electrode and in reducing this feature of the invention to practice, the receptacles are mounted in a rigid frame' consisting of two longitudinal bars 0 of U-shaped cross section and two transversal bars (Z holding the ends of the receptacles. These bars are riveted together at the corners so that the receptacles a are held firmly pressed to each other by the bars 0, the lateral bars d thereby receiving the pressure exerted by the swelling of the active material. In using long receptacles, stays e are preferably provided to prevent a central bending of the bars a. In place of the stays e, transversal bands or wires may be arranged such bands or wires being drawn through holes in the receptacles and then attached to the bars 0.

The last mentioned arrangement has the advantage, too, that the bands or wires give the electrode a certain transversal rigidity and prevent a lateral displacement of the separate receptacles. The staying of the two bars 0 may also be effected by means of other electrodes within the same cell, the electrodes being arranged with the receptacles alternately in an upright and a lying position whereby the receptacles of each electrode form transversal stays for the ,z'djaoent electrodes, said stays serving the same urpose as the bars or stays at and e as regar s the holding together of the receptacles.

The closing up of the ends of the receptacles is effected preferably by compressing the ends from opposite sides, a T-shaped member f, as shown in Fig. 6, having been inserted prior to this operation, which member f afterwards serves to retain the receptacle in the lateral bars d the edges of which.

are bent for the purpose as illustrated in Fig. 8. In a similar manner the ends of the bars 0 are compressed from the sides and inserted in the bars d.

To attain a good circulation of the electrolyte, without reducing the thickness of the plates transversal grooves g are pressed into the sides of'the receptacles facing each other, the said grooves being preferably arranged opposite each other so as to form passages between the receptacles. Through.

these passages the electrolyte may penetrate to the inner parts of the receptacles, the walls of the passages being also perforated. The receptacles may also be provided with longitudinal pressed elevations and depressions sisting of a plurality of flattened tubular receptacles placed together with the flattened sides facing each other in planes perpendicular to the sides of the electrode.

2. A plate electrode for electric cells consisting of a plurality of flattened perforated "receptacles placed together with the flattened sides facing each other in planes perpendicular to the sides of the electrode and a clamping device for holding the receptacles together so as to prevent atransverse expansion of the receptacles on account of the swelling of the active mass.

3. A plate electrode for electric cells consisting of a plurality of flattened perforated receptacles placed together with flattened sides facing each other in planes perpendicular to the sides of the electrode, two longitudinal bars holding the receptacles between them and transversal stays connecting said bars to prevent a transverse expansion of the receptacles on account of the swelling of the active mass.

4. A plate electrode for electric cells consisting of a plurality of flattened perforated receptacles placed together with the flattened sides facing each other in planes perpendicular to the sides of the electrode, transversal grooves being pressed into the broad sides 0 the receptacles to facilitate the circulation of the electrolyte.

5. A plate electrode for electric cells consisting of a plurality of flattened perforated receptacles placed together with the flattened In witness whereof we have hereunto set sides facing each other in planes perpenour hands in the presence of two witnesses. 10 dicular to the sides of the electrode, said ROBERT AME receptacles being provided with 10ngitudi CARL OSCAR 6 Mom-luvs nal depressions and elevations pressed into 7 the flat sides of the receptacles and engaging Witnesses:

each other so as to prevent a lateral dis- GUST SPRIEN,

placement of the receptacles. ELIN WAHIAN. 

